Blocks A and B have a masses of 100 kg Figure 2 of 3and 270 kg respectively.( Figure 2) The coefficient of static friction. between A and B and between B and C is 0.260. The coefficient of static friction between the rope and peg E is 0.400. Pulley D rotates freely, and P = 16.0 N. If \theta = 60.0 degrees, what is the smallest magnitude, T, of tension, T, that causes block B to move? Figure < 2 of 3 > P A B C E T
Blocks A and B have a masses of 100 kg Figure 2 of 3and 270 kg respectively.( Figure 2) The coefficient of static friction. between A and B and between B and C is 0.260. The coefficient of static friction between the rope and peg E is 0.400. Pulley D rotates freely, and P = 16.0 N. If \theta = 60.0 degrees, what is the smallest magnitude, T, of tension, T, that causes block B to move? Figure < 2 of 3 > P A B C E T
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Transcribed Image Text:Blocks A and B have a masses of 100 kg
Figure 2 of 3and 270 kg respectively.(
Figure 2) The coefficient of static friction.
between A and B and between B and C
is 0.260. The coefficient of static friction
between the rope and peg E is 0.400.
Pulley D rotates freely, and P = 16.0 N.
If \theta = 60.0 degrees, what is the
smallest magnitude, T, of tension, T, that
causes block B to move?
Transcribed Image Text:Figure
< 2 of 3
>
P
A
B
C
E
T
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